Answer:
variety of enssential functions
Explanation:
The correct answer is option c, that is, people voting not to allow government money to fund genetic modification research.
The scientists from the Food and Drug Administration had continuously warned that the genetically modified foods can develop hard to detect and unpredictable side effects, like toxins, allergies, nutritional issues, and new diseases.
The GM plants, like corn, soybean, canola, and cottonseed, have had foreign genes forced into their DNA. The inserted genes come from species, like viruses and bacteria that have never been in the supply of human food.
The genetic engineering procedure develops massive collateral destruction, making mutations in several locations all through the DNA of the plant. The natural genes can be permanently turned off or deleted, and many may have modified their behavior.
Even the gene inserted may get rearranged or damaged, and may produce proteins, which can promote disease or initiate allergies.
The answer would be true because any water can have any risk, not all water is healthy for your body because sometimes even though water filters about foreign objects, it can still affect your body in any way.
Answer:
The correct option is;
D. 45%
Explanation:
From the Hardy- Weinberg law, we have;
p² + 2·p·q + q² = 1
p + q = 1
Where:
p = Dom inant allele frequency in the population
q = Recessive allele frequency in the population
p² = The percentage of individuals in the population that are hom ozygous dominant
q² = The percentage of individuals in the population that are homo zygous recessive
2×p×q = The percentage of hete rozyous individuals in the population
The number of individuals that express the recessive phenotype = 86
The number of individuals in the population = 200
The percentage of individuals that express the recessive phenotype, q² = 86/200 = 0.43
Therefore;
q = √0.43 = 0.656
p + q = 1
p = 1 - q = 1 - 0.656= 0.344
∴ The frequency of individuals that express the do minant phe notype, p = 0.344
The percentage of heterozyous individuals in the population = 2×p×q × 100 = 2 × 0.656 × 0.344 × 100 = 45.15% ≈ 45%